// SPDX-FileCopyrightText: 2016 Jeffrey Crowell <crowell@bu.edu>
// SPDX-License-Identifier: LGPL-3.0-only

#include <rz_util.h>
#include "minunit.h"
#include <rz_types.h>

// TODO test rz_str_chop_path

bool test_rz_str_replace_char_once(void) {
	char *str = strdup("hello world");
	(void)rz_str_replace_char_once(str, 'l', 'x');
	mu_assert_streq(str, "hexlo world", "error, replace char once failed");
	free(str);
	mu_end;
}

bool test_rz_str_replace(void) {
	// infinite loop test
	char *str;
	str = rz_str_replace(strdup("hello world"), "hello", "bell", 0);
	mu_assert_streq(str, "bell world", "error, replace char multi failed");
	free(str);

	str = rz_str_replace(strdup("hello world"), "hello", "bell", 1);
	mu_assert_streq(str, "bell world", "error, replace char multi failed");
	free(str);

	str = rz_str_replace(strdup("hello world"), "hello", "", 1);
	mu_assert_streq(str, " world", "error, replace char multi failed");
	free(str);

	str = rz_str_replace(strdup("hello world"), "h", "hello", 0);
	mu_assert_streq(str, "helloello world", "error, replace char multi failed");
	free(str);

	str = rz_str_replace(strdup("hello horld"), "h", "hello", 1);
	mu_assert_streq(str, "helloello helloorld", "error, replace char multi failed");
	free(str);
	str = rz_str_replace(strdup("hello horld"), "h", "hello", 0);
	mu_assert_streq(str, "helloello horld", "error, replace char multi failed");
	free(str);
	mu_end;
}

bool test_rz_str_ncpy(void) {
	char *str = strdup("hello world");
	char buf[10];
	rz_str_ncpy(buf, str, 3);
	mu_assert_streq(buf, "he", "error, while copying n bytes");

	rz_str_ncpy(buf, str, 1);
	mu_assert_streq(buf, "", "error, while copying 1 bytes");

	int size = sizeof(buf) - 1;
	rz_str_ncpy(buf, str, size);
	mu_assert_streq(buf, "hello wo", "error, while size = sizeof(buf) - 1");

	size = sizeof(buf);
	rz_str_ncpy(buf, str, size);
	mu_assert_streq(buf, "hello wor", "error, while size = sizeof(buf)");

	size = rz_str_ncpy(buf, str, 6);
	mu_assert_eq(size, 11, "error, return value is not equal to the length of src");

	free(str);
	mu_end;
}

bool test_rz_str_ncat(void) {
	char buf[25];

	rz_str_ncpy(buf, "\0", 25); // clearing buffer.

	rz_str_ncat(buf, "hello ", 25);
	mu_assert_streq(buf, "hello ", "error, while concatenating n bytes");

	rz_str_ncat(buf, "world ", 25);
	mu_assert_streq(buf, "hello world ", "error, while concatenating n bytes");

	rz_str_ncat(buf, "from ", 25);
	mu_assert_streq(buf, "hello world from ", "error, while concatenating n bytes");

	rz_str_ncat(buf, "rizin", 25);
	mu_assert_streq(buf, "hello world from rizin", "error, while concatenating n bytes");

	mu_end;
}

bool test_rz_str_replace_char(void) {
	char *str = strdup("hello world");
	(void)rz_str_replace_char(str, 'l', 'x');
	mu_assert_streq(str, "hexxo worxd", "error, replace char multi failed");
	free(str);
	mu_end;
}

// TODO test rz_str_bits

bool test_rz_str_bits64(void) {
	char buf[65];
	(void)rz_str_bits64(buf, 0);
	mu_assert_streq(buf, "00000000", "binary of 0");
	(void)rz_str_bits64(buf, 1);
	mu_assert_streq(buf, "00000001", "binary of 1");
	(void)rz_str_bits64(buf, 2);
	mu_assert_streq(buf, "00000010", "binary of 2");
	mu_end;
}

// TODO test rz_str_bits_from_string

bool test_rz_str_rwx(void) {
	int rwx = rz_str_rwx("rwx");
	int rw = rz_str_rwx("rw-");
	int rx = rz_str_rwx("rx");
	int none = rz_str_rwx("---");
	int number = rz_str_rwx("999");
	int rx_number = rz_str_rwx("5");
	int rwx_number = rz_str_rwx("7");
	mu_assert_eq(rwx, 7, "rwx");
	mu_assert_eq(rw, 6, "rw");
	mu_assert_eq(rx, 5, "rx");
	mu_assert_eq(none, 0, "no permissions");
	mu_assert_eq(number, 0, "large input number string");
	mu_assert_eq(rx_number, 5, "rx number");
	mu_assert_eq(rwx_number, 7, "rwx number");
	mu_end;
}

// TODO test rz_str_binstr2bin

bool test_rz_str_rwx_i(void) {
	const char *rwx = rz_str_rwx_i(7);
	const char *rw = rz_str_rwx_i(6);
	const char *rx = rz_str_rwx_i(5);
	const char *invalid_mode = rz_str_rwx_i(898);
	const char *invalid_mode_neg = rz_str_rwx_i(-10);
	mu_assert_streq(rwx, "rwx", "rwx = 7 mode");
	mu_assert_streq(rw, "rw-", "rw = 6 mode");
	mu_assert_streq(rx, "r-x", "rx = 5 mode");
	mu_assert_streq(invalid_mode, "---", "invalid permissions mode");
	mu_assert_streq(invalid_mode_neg, "---", "invalid permissions mode (negative value)");
	mu_end;
}

bool test_rz_str_trim(void) {
	//  1
	const char *one = rz_str_trim_head_ro("  hello  ");
	mu_assert_streq(one, "hello  ", "one");
	//  2
	char *two = strdup("  hello  ");
	rz_str_trim_head(two);
	mu_assert_streq(two, "hello  ", "two");
	rz_str_trim(two);
	//  2
	mu_assert_streq(two, "hello", "three");
	free(two);
	mu_end;
}

bool test_rz_str_bool(void) {
	const char *one = rz_str_bool(1);
	const char *zero = rz_str_bool(0);
	const char *fifty = rz_str_bool(50);
	const char *negative = rz_str_bool(-1);
	mu_assert_streq(one, "true", "one");
	mu_assert_streq(zero, "false", "zero");
	mu_assert_streq(fifty, "true", "large positive value");
	mu_assert_streq(negative, "true", "negative number");
	mu_end;
}

bool test_rz_str_case(void) {
	char *str1_mixedcase = strdup("mIxEdCaSe");
	char *str2_mixedcase = strdup("mIxEdCaSe");
	rz_str_case(str1_mixedcase, true /*upcase*/);
	rz_str_case(str2_mixedcase, false /*downcase*/);
	mu_assert_streq(str1_mixedcase, "MIXEDCASE", "upcase");
	mu_assert_streq(str2_mixedcase, "mixedcase", "downcase");
	char *non_alphanum_1 = strdup("c00lstring!");
	char *non_alphanum_2 = strdup("c00lstrinG!");
	rz_str_case(non_alphanum_1, true /*upcase*/);
	rz_str_case(non_alphanum_2, false /*downcase*/);
	mu_assert_streq(non_alphanum_1, "C00LSTRING!", "upcase, nonalpanum");
	mu_assert_streq(non_alphanum_2, "c00lstring!", "downcase, nonalpanum");
	free(str1_mixedcase);
	free(str2_mixedcase);
	free(non_alphanum_1);
	free(non_alphanum_2);
	mu_end;
}

bool test_rz_str_case_nstr(void) {
	const char *str = "AbcD1!sqQ";
	const char *substr = "sq";
	const char *substr_case = "Sq";
	mu_assert_null(rz_str_case_nstr(str, substr, 5), "not contain");
	mu_assert_ptreq(rz_str_case_nstr(str, substr, 8), str + 6, "contain");
	mu_assert_null(rz_str_case_nstr(str, substr_case, 6), "not contain (ignore case)");
	mu_assert_ptreq(rz_str_case_nstr(str, substr_case, 8), str + 6, "contain (ignore case)");
	mu_end;
}

// TODO test rz_str_hash64, rz_str_hash
// TODO test rz_str_delta (WHAT!)

bool test_rz_str_split(void) {
	char *hi = strdup("hello world");
	size_t r = rz_str_split(hi, ' ');
	mu_assert_eq(r, 2, "split on space");
	char *hello = hi;
	char *world = hi + 6;
	mu_assert_streq(hello, "hello", "first string in split");
	mu_assert_streq(world, "world", "second string in split");
	free(hi);

	char *ho = strdup("helloworld");
	r = rz_str_split(ho, ' ');
	mu_assert_eq(r, 1, "split on space");
	free(ho);
	mu_end;
}

bool test_rz_str_split_list(void) {
	char s[] = "Hello=World=And  =  Everyone";
	RzList *l = rz_str_split_duplist_n(s, "=", 0, false);
	mu_assert_eq(rz_list_length(l), 4, "string has been split in 4 items");
	mu_assert_streq(rz_list_get_n(l, 0), "Hello", "first item");
	mu_assert_streq(rz_list_get_n(l, 1), "World", "second item");
	mu_assert_streq(rz_list_get_n(l, 2), "And  ", "third item");
	mu_assert_streq(rz_list_get_n(l, 3), "  Everyone", "fourth item");
	rz_list_free(l);

	char s1[] = "Hello  World\tAnd \t Everyone";
	RzList *l1 = rz_str_split_duplist_n_regex(s1, "\\s+", 0, false);
	mu_assert_eq(rz_list_length(l1), 4, "string has been split in 4 items");
	mu_assert_streq(rz_list_get_n(l1, 0), "Hello", "first item");
	mu_assert_streq(rz_list_get_n(l1, 1), "World", "second item");
	mu_assert_streq(rz_list_get_n(l1, 2), "And", "third item");
	mu_assert_streq(rz_list_get_n(l1, 3), "Everyone", "fourth item");
	rz_list_free(l1);

	char s2[] = "Hello=World=Everyone";
	RzList *l2 = rz_str_split_duplist_n(s2, "=", 1, false);
	mu_assert_eq(rz_list_length(l2), 2, "string has been split in 2 items");
	mu_assert_streq(rz_list_get_n(l2, 0), "Hello", "first item");
	mu_assert_streq(rz_list_get_n(l2, 1), "World=Everyone", "second item");
	rz_list_free(l2);

	char s3[] = "Hello  World\tAnd \t Everyone\t";
	RzList *l3 = rz_str_split_list_regex(s3, "\\s+", 0);
	mu_assert_eq(rz_list_length(l3), 4, "string has been split in 4 items");
	mu_assert_streq(rz_list_get_n(l3, 0), "Hello", "first item");
	mu_assert_streq(rz_list_get_n(l3, 1), "World", "second item");
	mu_assert_streq(rz_list_get_n(l3, 2), "And", "third item");
	mu_assert_streq(rz_list_get_n(l3, 3), "Everyone", "fourth item");
	rz_list_free(l3);

	char s4[] = "Hello  World\tAnd \t Everyoneaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa";
	RzList *l4 = rz_str_split_list_regex(s4, "\\s+", 0);
	mu_assert_eq(rz_list_length(l4), 4, "string has been split in 4 items");
	mu_assert_streq(rz_list_get_n(l4, 0), "Hello", "first item");
	mu_assert_streq(rz_list_get_n(l4, 1), "World", "second item");
	mu_assert_streq(rz_list_get_n(l4, 2), "And", "third item");
	mu_assert_streq(rz_list_get_n(l4, 3), "Everyoneaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa", "fourth item");
	rz_list_free(l4);
	mu_end;
}

bool test_rz_str_split_lines(void) {
	char s[] = "Hello\nWorld\nThis is me.";
	size_t count;
	size_t *act = rz_str_split_lines(s, &count);
	mu_assert_eq(count, 3, "there are 3 lines");
	mu_assert_eq(act[0], 0, "first line is at 0");
	mu_assert_eq(act[1], 6, "second line is at 6");
	mu_assert_eq(act[2], 12, "third line is at 12");
	free(act);
	mu_end;
}

bool test_rz_str_tokenize(void) {
	// XXX rz_str_word0 doesn't work on "hello      world" to
	//  tokenize into ["hello", "world"]
	char *hi = strdup("hello world");
	int r = rz_str_word_set0(hi);
	mu_assert_eq(r, 2, "tokenize hello world");
	const char *hello = rz_str_word_get0(hi, 0);
	const char *world = rz_str_word_get0(hi, 1);
	mu_assert_streq(hello, "hello", "first string in split");
	mu_assert_streq(world, "world", "second string in split");
	free(hi);
	mu_end;
}

bool test_rz_str_char_count(void) {
	mu_assert_eq(rz_str_char_count("papaya", 'p'), 2, "number of p in papaya");
	mu_end;
}

bool test_rz_str_word_count(void) {
	mu_assert_eq(rz_str_word_count("let's test\nrizin \t libraries!"), 4,
		"words in a string");
	mu_end;
}

bool test_rz_str_ichr(void) {
	char *test = "rrrrrrizin";
	char *out = rz_str_ichr(test, 'r');
	mu_assert_streq(out, "izin",
		"string after the first non-r character in rrrrrrizin");
	mu_end;
}

bool test_rz_str_lchr(void) {
	const char *test = "rizin";
	const char *out = rz_str_lchr(test, 'i');
	mu_assert_streq(out, "in", "pointer to last i in rizin");
	mu_end;
}

bool test_rz_sub_str_lchr(void) {
	const char *test = "raddddare2d";
	const char *out = rz_sub_str_lchr(test, 1, 8, 'd');
	mu_assert_streq(out, "dare2d", "pointer to last d in range in radddddare2d");
	mu_end;
}

bool test_rz_sub_str_rchr(void) {
	const char *test = "raddddare2d";
	const char *out = rz_sub_str_rchr(test, 1, 8, 'd');
	mu_assert_streq(out, "ddddare2d", "pointer to first d in range in radddddare2d");
	mu_end;
}

bool test_rz_str_rchr(void) {
	const char *test = "raddddare2d";
	const char *out = rz_str_rchr(test, NULL, '2');
	mu_assert_streq(out, "2d", "pointer to last p in range in raddddare2d");
	out = rz_str_rchr(test, NULL, 'p');
	if (out) {
		mu_assert("non NULL value returned", 0);
	}
	out = test + 9;
	out = rz_str_rchr(test, out, 'd');
	mu_assert_streq(out, "dare2d", "pointer to last d in range in raddddare2d");
	out = test + strlen(test);
	out = rz_str_rchr(test, out, 'p');
	if (out) {
		mu_assert("non NULL value of out", 0);
	}
	mu_end;
}

bool test_rz_str_ansi_len(void) {
	int len;

	len = rz_str_ansi_len("rizin");
	mu_assert_eq(len, 5, "len(ascii only)");

	len = rz_str_ansi_len("r\x1b[38;2;208;80;0madare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with m)");

	len = rz_str_ansi_len("r\x1b[0Jadare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with J)");

	len = rz_str_ansi_len("r\x1b[42;42Hadare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with H)");

	len = rz_str_ansi_len("r\xc3\xa4"
			      "dare2");
	mu_assert_eq(len, 8, "len(ascii + 2 byte utf-8 counted as 2 chars)");

	len = rz_str_ansi_len("radar\xe2\x82\xac"
			      "2");
	mu_assert_eq(len, 9, "len(ascii + 3 byte utf-8 counted as 3 chars)");

	len = rz_str_ansi_len("radar\xf0\x9d\x84\x9e"
			      "2");
	mu_assert_eq(len, 10, "len(ascii + 4 byte utf-8 counted as 4 chars)");

	mu_end;
}

bool test_rz_str_len_utf8_ansi(void) {
	int len;

	len = rz_str_len_utf8_ansi("rizin");
	mu_assert_eq(len, 5, "len(ascii only)");

	len = rz_str_len_utf8_ansi("r\x1b[38;2;208;80;0madare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with m)");

	len = rz_str_len_utf8_ansi("r\x1b[0Jadare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with J)");

	len = rz_str_len_utf8_ansi("r\x1b[42;42Hadare2");
	mu_assert_eq(len, 7, "len(ascii + ansi ending with H)");

	len = rz_str_len_utf8_ansi("r\xc3\xa4"
				   "dare2");
	mu_assert_eq(len, 7, "len(ascii + 2 byte utf-8 counted as 1 char)");

	len = rz_str_len_utf8_ansi("radar\xe2\x82\xac"
				   "2");
	mu_assert_eq(len, 7, "len(ascii + 3 byte utf-8 counted as 1 char)");

	len = rz_str_len_utf8_ansi("radar\xf0\x9d\x84\x9e"
				   "2");
	mu_assert_eq(len, 7, "len(ascii + 4 byte utf-8 counted as 1 char)");

	mu_end;
}

bool test_rz_str_utf8_charsize(void) {
	char s[16] = "\x61\xc3\xa1\xe6\x97\xa5\xf0\x9f\x91\x8c\xf0\x9f\x91\x8c\x8c"; // aá日👌
	int sz;

	sz = rz_str_utf8_charsize(s);
	mu_assert_eq(sz, 1, "1 byte UTF-8");

	sz = rz_str_utf8_charsize(s + 1);
	mu_assert_eq(sz, 2, "2 byte UTF-8");

	sz = rz_str_utf8_charsize(s + 3);
	mu_assert_eq(sz, 3, "3 byte UTF-8");

	sz = rz_str_utf8_charsize(s + 6);
	mu_assert_eq(sz, 4, "4 byte UTF-8");

	sz = rz_str_utf8_charsize(s + 10);
	mu_assert_eq(sz, 0, "Malformed UTF-8");

	mu_end;
}

bool test_rz_str_utf8_charsize_prev(void) {
	char s[16] = "\x61\xc3\xa1\xe6\x97\xa5\xf0\x9f\x91\x8c\xf0\x9f\x91\x8c\x8c"; // aá日👌
	int sz;

	sz = rz_str_utf8_charsize_last(s);
	mu_assert_eq(sz, 0, "Malformed UTF-8");

	sz = rz_str_utf8_charsize_prev(s + 10, 10);
	mu_assert_eq(sz, 4, "4 byte UTF-8");

	sz = rz_str_utf8_charsize_prev(s + 6, 6);
	mu_assert_eq(sz, 3, "3 byte UTF-8");

	sz = rz_str_utf8_charsize_prev(s + 3, 3);
	mu_assert_eq(sz, 2, "2 byte UTF-8");

	sz = rz_str_utf8_charsize_prev(s + 1, 1);
	mu_assert_eq(sz, 1, "1 byte UTF-8");

	mu_end;
}

bool test_rz_str_sanitize_sdb_key(void) {
	char *s = rz_str_sanitize_sdb_key("rada.re2<is>::Cool");
	mu_assert_streq(s, "rada_re2_is_::Cool", "sanitize");
	free(s);
	mu_end;
}

bool test_rz_str_escape_sh(void) {
	char *escaped = rz_str_escape_sh("Hello, \"World\"");
	mu_assert_streq(escaped, "Hello, \\\"World\\\"", "escaped \"double quotes\"");
	free(escaped);
	escaped = rz_str_escape_sh("Hello, \\World\\");
	mu_assert_streq(escaped, "Hello, \\\\World\\\\", "escaped backspace");
	free(escaped);
#if __UNIX__
	escaped = rz_str_escape_sh("Hello, $(World)");
	mu_assert_streq(escaped, "Hello, \\$(World)", "escaped $(command)");
	free(escaped);
	escaped = rz_str_escape_sh("Hello, `World`");
	mu_assert_streq(escaped, "Hello, \\`World\\`", "escaped `command`");
	free(escaped);
#endif
	mu_end;
}

bool test_rz_str_unescape(void) {
	char buf[] = "Hello\\x31World\\n";
	rz_str_unescape(buf);
	mu_assert_streq(buf, "Hello1World\n", "unescaped");
	mu_end;
}

bool test_rz_str_newf(void) {
	char *a = rz_str_newf("hello");
	mu_assert_streq(a, "hello", "oops");
	free(a);

	a = rz_str_newf("%s/%s", "hello", "world");
	mu_assert_streq(a, "hello/world", "oops");
	free(a);

	a = rz_str_newf("%s/%s", "hello", "world");
	a = rz_str_appendf(a, "..%s/%s", "cow", "low");
	a = rz_str_appendf(a, "PWN");
	mu_assert_streq(a, "hello/world..cow/lowPWN", "oops");
	free(a);
	mu_end;
}

bool test_rz_str_constpool(void) {
	RzStrConstPool pool;
	bool s = rz_str_constpool_init(&pool);
	mu_assert("pool init success", s);

	const char *a_ref = "deliverance";
	const char *a_pooled = rz_str_constpool_get(&pool, a_ref);
	mu_assert_ptrneq(a_pooled, a_ref, "pooled != ref");
	mu_assert_streq(a_pooled, a_ref, "pooled == ref (strcmp)");
	const char *a_pooled2 = rz_str_constpool_get(&pool, a_ref);
	mu_assert_ptreq(a_pooled2, a_pooled, "same on re-get");
	char *a_ref_cpy = strdup(a_ref);
	a_pooled2 = rz_str_constpool_get(&pool, a_ref_cpy);
	free(a_ref_cpy);
	mu_assert_ptreq(a_pooled2, a_pooled, "same on re-get with different ptr");

	const char *b_ref = "foonation";
	const char *b_pooled = rz_str_constpool_get(&pool, b_ref);
	mu_assert_ptrneq(b_pooled, b_ref, "pooled != ref (second)");
	mu_assert_streq(b_pooled, b_ref, "pooled == ref (strcmp, second)");

	rz_str_constpool_fini(&pool);
	mu_end;
}

bool test_rz_str_format_msvc_argv() {
	// Examples from http://daviddeley.com/autohotkey/parameters/parameters.htm#WINCRULES
	const char *a = "CallMePancake";
	char *str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "CallMePancake", "no escaping");
	free(str);

	a = "Call Me Pancake";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "\"Call Me Pancake\"", "just quoting");
	free(str);

	a = "CallMe\"Pancake";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "CallMe\\\"Pancake", "just escaping");
	free(str);

	a = "CallMePancake\\";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "CallMePancake\\", "no escaping of backslashes");
	free(str);

	a = "Call Me Pancake\\";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "\"Call Me Pancake\\\\\"", "escaping of backslashes before closing quote");
	free(str);

	a = "CallMe\\\"Pancake";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "CallMe\\\\\\\"Pancake", "escaping of backslashes before literal quote");
	free(str);

	a = "Call Me\\\"Pancake";
	str = rz_str_format_msvc_argv(1, &a);
	mu_assert_streq(str, "\"Call Me\\\\\\\"Pancake\"", "escaping of backslashes before literal quote in quote");
	free(str);

	const char *args[] = { "rm", "-rf", "\\" };
	str = rz_str_format_msvc_argv(3, args);
	mu_assert_streq(str, "rm -rf \\", "multiple args");
	free(str);

	mu_end;
}

bool test_rz_str_str_xy(void) {
	char *canvas = "Hello World\n"
		       "This World is World\n"
		       "World is Hello\n";
	int x = 0, y = 0;
	const char *next = rz_str_str_xy(canvas, "World", NULL, &x, &y);
	mu_assert_eq(x, 6, "x of first occurrence");
	mu_assert_eq(y, 0, "y of first occurrence");
	next = rz_str_str_xy(canvas, "World", next, &x, &y);
	mu_assert_eq(x, 5, "x of second occurrence");
	mu_assert_eq(y, 1, "y of second occurrence");
	next = rz_str_str_xy(canvas, "World", next, &x, &y);
	mu_assert_eq(x, 14, "x of third occurrence");
	mu_assert_eq(y, 1, "y of third occurrence");
	next = rz_str_str_xy(canvas, "World", next, &x, &y);
	mu_assert_eq(x, 0, "x of fourth occurrence");
	mu_assert_eq(y, 2, "y of fourth occurrence");
	next = rz_str_str_xy(canvas, "World", next, &x, &y);
	mu_assert_null(next, "no more occurences");
	mu_end;
}

static bool test_rz_str_wrap(void) {
	size_t i;
	RzListIter *it;
	const char *ts;
	RzStrBuf sb;
	rz_strbuf_init(&sb);

	char s1[] = "This is a very long string we would like to wrap at around X characters. It should not split words.";
	RzList *l1 = rz_str_wrap(s1, 15);
	mu_assert_eq(rz_list_length(l1), 7, "s1 should be split in 7");
	const char *exp_s1[] = {
		"This is a very",
		"long string we",
		"would like to",
		"wrap at around",
		"X characters.",
		"It should not",
		"split words.",
	};
	i = 0;
	rz_list_foreach (l1, it, ts) {
		rz_strbuf_setf(&sb, "%zu-th string should be the same", i);
		mu_assert_streq(ts, exp_s1[i++], rz_strbuf_get(&sb));
	}
	rz_list_free(l1);

	char s2[] = "   This is a very long string we would     like to wrap at around X characters. It should not split words.   ";
	RzList *l2 = rz_str_wrap(s2, 40);
	mu_assert_eq(rz_list_length(l2), 3, "s2 should be split in 3");
	const char *exp_s2[] = {
		"   This is a very long string we would",
		"like to wrap at around X characters. It",
		"should not split words.",
	};
	i = 0;
	rz_list_foreach (l2, it, ts) {
		rz_strbuf_setf(&sb, "%zu-th string should be the same", i);
		mu_assert_streq(ts, exp_s2[i++], rz_strbuf_get(&sb));
	}
	rz_list_free(l2);

	char s3[] = "    ";
	RzList *l3 = rz_str_wrap(s3, 40);
	mu_assert_eq(rz_list_length(l3), 0, "l3 should be empty");
	rz_list_free(l3);

	char s4[] = "  Hello  ";
	RzList *l4 = rz_str_wrap(s4, 20);
	mu_assert_eq(rz_list_length(l4), 1, "l4 should contained only one word");
	mu_assert_streq(rz_list_get_n(l4, 0), "  Hello", "s4 Hello string is there");
	rz_list_free(l4);

	char s5[] = "Hello   World   Small   ";
	RzList *l5 = rz_str_wrap(s5, 3);
	mu_assert_eq(rz_list_length(l5), 3, "just three lines in s5, even if bigger");
	mu_assert_streq(rz_list_get_n(l5, 0), "Hello", "s5 Hello string is there");
	mu_assert_streq(rz_list_get_n(l5, 1), "World", "s5 World string is there");
	mu_assert_streq(rz_list_get_n(l5, 2), "Small", "s5 World string is there");
	rz_list_free(l5);

	char s6[] = "Write value of given size";
	RzList *l6 = rz_str_wrap(s6, 7);
	mu_assert_eq(rz_list_length(l6), 5, "5 elements in s6");
	const char *exp_s6[] = {
		"Write",
		"value",
		"of",
		"given",
		"size",
	};
	i = 0;
	rz_list_foreach (l6, it, ts) {
		rz_strbuf_setf(&sb, "%zu-th string should be the same", i);
		mu_assert_streq(ts, exp_s6[i++], rz_strbuf_get(&sb));
	}
	rz_list_free(l6);

	rz_strbuf_fini(&sb);
	mu_end;
}

bool test_rz_str_encoded_json(void) {
	char *invalidJsonString = "This is my \xe2 sample © string\n";
	size_t len = strlen(invalidJsonString);
	char *stripped = rz_str_escape_utf8_for_json(invalidJsonString, len);
	mu_assert_streq_free(stripped, "This is my  sample © string\\n", "string with bad chars stripped");
	mu_end;
}

bool test_rz_strf(void) {
#if 0
	char *illegle = NULL;
	rz_strf(illegle, "this should trigger gcc's -Werror=sizeof-pointer-memaccess");
#endif
	char bufa[0x100];
	char bufb[0x100];
	char *resa = rz_strf(bufa, "Hello");
	char *resb = rz_strf(bufb, "World %d", 42);
	mu_assert_ptreq(resa, bufa, "rz_strf ptr");
	mu_assert_streq(resa, "Hello", "rz_strf string");
	mu_assert_ptreq(resb, bufb, "rz_strf ptr");
	mu_assert_streq(resb, "World 42", "rz_strf string");
	mu_end;
}

bool test_rz_str_nlen(void) {
	mu_assert_eq(rz_str_nlen("Hello", 0), 0, "0 n should give 0");
	mu_assert_eq(rz_str_nlen("Hello", 1), 1, "1 n should give 1");
	mu_assert_eq(rz_str_nlen("Hello", 5), 5, "0 n should give 5");
	mu_assert_eq(rz_str_nlen("Hello", 20), 5, "20 n should give 5 because 'hello' is 5 chars");
	mu_assert_eq(rz_str_nlen("", 0), 0, "empty string has 0 length");
	mu_assert_eq(rz_str_nlen("", 4), 0, "empty string has 0 length even with n=4");
	mu_assert_eq(rz_str_nlen("A", 0), 0, "0 n should give 0");
	mu_assert_eq(rz_str_nlen("A", 1), 1, "1 n should give 1");
	mu_assert_eq(rz_str_nlen("A", 2), 1, "1 n should give 1 for 'A'");
	mu_end;
}

bool test_rz_str_ndup(void) {
	mu_assert_streq_free(rz_str_ndup("Hello", 0), "", "empty string");
	mu_assert_streq_free(rz_str_ndup("Hello", 1), "H", "only first char");
	mu_assert_streq_free(rz_str_ndup("Hello", 5), "Hello", "whole string");
	mu_assert_streq_free(rz_str_ndup("Hello", 100), "Hello", "still whole string");
	mu_assert_streq_free(rz_str_ndup("", 0), "", "empty string");
	mu_assert_streq_free(rz_str_ndup("", 1), "", "empty string 2");
	mu_assert_streq_free(rz_str_ndup("", 100), "", "empty string 3");
	mu_assert_streq_free(rz_str_ndup("A", 0), "", "empty string for 'A'");
	mu_assert_streq_free(rz_str_ndup("A", 1), "A", "'A' string for 'A' with n=1");
	mu_assert_streq_free(rz_str_ndup("A", 100), "A", "'A' string for 'A' with n=100");
	mu_assert_streq_free(rz_str_ndup("A", -100), NULL, "NULL string for 'A' with n=-100");
	mu_assert_streq_free(rz_str_ndup("", -100), NULL, "NULL string for '' with n=-100");
	mu_assert_streq_free(rz_str_ndup(NULL, -100), NULL, "NULL string for NULL with n=-100");
	mu_end;
}

bool test_rz_str_filter(void) {
	char buf[10] = "hel\x01\x02\x03lo";
	char *buf2 = rz_str_ndup("AAA\001\002AAA", 20);
	char *buf3 = rz_str_ndup("AAA\001\002AAA", 5);

	rz_str_filter(buf);
	mu_assert_streq(buf, "hel...lo", "static buffer should be filtered");
	rz_str_filter(buf2);
	mu_assert_streq_free(buf2, "AAA..AAA", "allocated buffer with ndup 20 should be filtered");
	rz_str_filter(buf3);
	mu_assert_streq_free(buf3, "AAA..", "allocated buffer with ndup 5 should be filtered");
	mu_end;
}

bool test_rz_str_strchr(void) {
	const char *a = "xzx";
	const char *b = "🍍";
	const char *c = "xx🍍xx";
	const char *d = "xx\xffggg";
	const char *e = "xx\xe1";
	const char *f = "xx\xe1gg";

	mu_assert_ptreq(rz_str_strchr(a, "z"), a + 1, "Simple search.");
	mu_assert_ptreq(rz_str_strchr(a, "a"), NULL, "Simple search. Char not present.");
	mu_assert_ptreq(rz_str_strchr(b, "🍍"), b, "Simple UTF-8 search.");
	mu_assert_ptreq(rz_str_strchr(b, "x"), NULL, "Simple UTF-8 search. Char not present.");
	mu_assert_ptreq(rz_str_strchr(c, "🍍"), c + 2, "Simple UTF-8 search. UTF-8 char within string.");
	mu_assert_ptreq(rz_str_strchr(d, "g"), d + 3, "Non printable character in string.");
	mu_assert_ptreq(rz_str_strchr(e, "🍍"), NULL, "Start UTF-8 byte present, but string terminates afterwards.");
	mu_assert_ptreq(rz_str_strchr(f, "🍍"), NULL, "Start UTF-8 byte present, but invalid chars follow.");

	mu_end;
}

bool test_rz_str_isXutf8(void) {

	const char *ascii = "a";
	const char *utf8 = "🍍";
	const char *null = "\x00";
	const char *broken_u2 = "\xc0"; // Last byte missing
	const char *broken_u3 = "\xe0\x8\xff"; // Last byte not an UTF-8 byte.
	const char *broken_u4 = "\xf0\x80\x80g"; // Last byte is ascii byte.

	mu_assert_true(rz_str_isXutf8(ascii, 1), "Is ascii byte");
	mu_assert_false(rz_str_isXutf8(ascii, 4), "ASCII is not 4 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(utf8, 2), "Is not a 2 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(utf8, 3), "Is not a 3 byte UTF-8");
	mu_assert_true(rz_str_isXutf8(utf8, 4), "Is a 4 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(broken_u2, 2), "Broken 2 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(broken_u3, 3), "Broken 3 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(broken_u4, 4), "Broken 4 byte UTF-8");
	mu_assert_false(rz_str_isXutf8(null, 4), "0x00 checks");
	mu_assert_false(rz_str_isXutf8(ascii, 5), "Invalid UTF-8 length");

	mu_end;
}

bool test_rz_str_utf8_conversions(void) {
	const char *needs_4 = "a";
	const char *needs_6 = "🍍";
	const char *needs_22 = "aa🍍🍍🍍aa";
	const char *only_nul_needs_2 = "";

	mu_assert_eq(rz_str_utf8_get_width_utf16(only_nul_needs_2), 2, "Should have been 0 + 2 = 2.");
	mu_assert_eq(rz_str_utf8_get_width_utf16(needs_4), 4, "Should have been 2 + 2 = 4.");
	mu_assert_eq(rz_str_utf8_get_width_utf16(needs_6), 6, "Should have been 4 + 2 = 6.");
	mu_assert_eq(rz_str_utf8_get_width_utf16(needs_22), 22, "Should have been 20 + 2 = 22.");

	mu_end;
}

bool test_rz_str_utf8_count_ucp(void) {
	const char *a = "a";
	const char *pine = "🍍";
	const char *apine = "aa🍍🍍🍍aa";
	const char *nul = "";

	mu_assert_eq(rz_str_utf8_num_ucp(nul), 1, "Should have been 1 code point.");
	mu_assert_eq(rz_str_utf8_num_ucp(a), 2, "Should have been 2 code points.");
	mu_assert_eq(rz_str_utf8_num_ucp(pine), 2, "Should have been 2 code points.");
	mu_assert_eq(rz_str_utf8_num_ucp(apine), 8, "Should have been 8 code points.");

	mu_end;
}

bool test_rz_str_utf8_to_utf16(void) {
	const char *a = "a";
	const ut8 a16_le[] = { 0x61, 0x00, 0x00, 0x00 };
	const ut8 a16_be[] = { 0x00, 0x61, 0x00, 0x00 };
	const char *pine = "🍍";
	const ut8 pine16_le[] = { 0x3c, 0xd8, 0x4d, 0xdf, 0x00, 0x00 };
	const ut8 pine16_be[] = { 0xd8, 0x3c, 0xdf, 0x4d, 0x00, 0x00 };
	const char *apine = "aa🍍🍍🍍aa";
	const ut8 apine16_le[] = { 0x61, 0x00, 0x61, 0x00, 0x3c, 0xd8, 0x4d, 0xdf, 0x3c, 0xd8, 0x4d, 0xdf, 0x3c, 0xd8, 0x4d, 0xdf, 0x61, 0x00, 0x61, 0x00, 0x00, 0x00 };
	const ut8 apine16_be[] = { 0x00, 0x61, 0x00, 0x61, 0xd8, 0x3c, 0xdf, 0x4d, 0xd8, 0x3c, 0xdf, 0x4d, 0xd8, 0x3c, 0xdf, 0x4d, 0x00, 0x61, 0x00, 0x61, 0x00, 0x00 };
	const char *nul = "";
	const ut8 nul16_le[] = { 0x0, 0x0 };
	const ut8 nul16_be[] = { 0x0, 0x0 };

	ut16 *out = rz_str_utf8_to_utf16(a, true);
	mu_assert_memeq((ut8 *)out, a16_be, sizeof(a16_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf16(a, false);
	mu_assert_memeq((ut8 *)out, a16_le, sizeof(a16_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf16(pine, true);
	mu_assert_memeq((ut8 *)out, pine16_be, sizeof(pine16_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf16(pine, false);
	mu_assert_memeq((ut8 *)out, pine16_le, sizeof(pine16_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf16(apine, true);
	mu_assert_memeq((ut8 *)out, apine16_be, sizeof(apine16_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf16(apine, false);
	mu_assert_memeq((ut8 *)out, apine16_le, sizeof(apine16_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf16(apine, RZ_HOST_IS_BIG_ENDIAN);
	mu_assert_memeq((ut8 *)out, RZ_HOST_IS_BIG_ENDIAN ? apine16_be : apine16_le, RZ_HOST_IS_BIG_ENDIAN ? sizeof(apine16_be) : sizeof(apine16_le), "string with host endian mismatches");
	free(out);

	out = rz_str_utf8_to_utf16(nul, true);
	mu_assert_memeq((ut8 *)out, nul16_be, sizeof(nul16_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf16(nul, false);
	mu_assert_memeq((ut8 *)out, nul16_le, sizeof(nul16_le), "string mismatch");
	free(out);

	mu_end;
}

bool test_rz_str_utf8_to_utf32(void) {
	const char *a = "a";
	const ut8 a32_le[] = { 0x61, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 a32_be[] = { 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00 };
	const char *pine = "🍍";
	const ut8 pine32_le[] = { 0x4d, 0xf3, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 pine32_be[] = { 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x00, 0x00, 0x00 };
	const char *apine = "aa🍍🍍🍍aa";
	const ut8 apine32_le[] = { 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 apine32_be[] = { 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00 };
	const char *nul = "";
	const ut8 nul32_le[] = { 0x0, 0x00, 0x00, 0x0 };
	const ut8 nul32_be[] = { 0x0, 0x00, 0x00, 0x0 };

	ut32 *out = rz_str_utf8_to_utf32(a, true);
	mu_assert_memeq((ut8 *)out, a32_be, sizeof(a32_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf32(a, false);
	mu_assert_memeq((ut8 *)out, a32_le, sizeof(a32_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf32(pine, true);
	mu_assert_memeq((ut8 *)out, pine32_be, sizeof(pine32_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf32(pine, false);
	mu_assert_memeq((ut8 *)out, pine32_le, sizeof(pine32_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf32(apine, true);
	mu_assert_memeq((ut8 *)out, apine32_be, sizeof(apine32_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf32(apine, false);
	mu_assert_memeq((ut8 *)out, apine32_le, sizeof(apine32_le), "string mismatch");
	free(out);

	out = rz_str_utf8_to_utf32(apine, RZ_HOST_IS_BIG_ENDIAN);
	mu_assert_memeq((ut8 *)out, RZ_HOST_IS_BIG_ENDIAN ? apine32_be : apine32_le, RZ_HOST_IS_BIG_ENDIAN ? sizeof(apine32_be) : sizeof(apine32_le), "string with host endian mismatches");
	free(out);

	out = rz_str_utf8_to_utf32(nul, true);
	mu_assert_memeq((ut8 *)out, nul32_be, sizeof(nul32_be), "string mismatch");
	free(out);
	out = rz_str_utf8_to_utf32(nul, false);
	mu_assert_memeq((ut8 *)out, nul32_le, sizeof(nul32_le), "string mismatch");
	free(out);

	mu_end;
}

bool test_rz_str_utf16_to_utf8(void) {
	const ut8 a[] = "a";
	const ut8 a16_le[] = { 0x61, 0x00, 0x00, 0x00 };
	const ut8 a16_be[] = { 0x00, 0x61, 0x00, 0x00 };
	const ut8 pine[] = "🍍";
	const ut8 pine16_le[] = { 0x3c, 0xd8, 0x4d, 0xdf, 0x00, 0x00 };
	const ut8 pine16_be[] = { 0xd8, 0x3c, 0xdf, 0x4d, 0x00, 0x00 };
	const ut8 apine[] = "aa🍍🍍🍍aa";
	const ut8 apine16_le[] = { 0x61, 0x00, 0x61, 0x00, 0x3c, 0xd8, 0x4d, 0xdf, 0x3c, 0xd8, 0x4d, 0xdf, 0x3c, 0xd8, 0x4d, 0xdf, 0x61, 0x00, 0x61, 0x00, 0x00, 0x00 };
	const ut8 apine16_be[] = { 0x00, 0x61, 0x00, 0x61, 0xd8, 0x3c, 0xdf, 0x4d, 0xd8, 0x3c, 0xdf, 0x4d, 0xd8, 0x3c, 0xdf, 0x4d, 0x00, 0x61, 0x00, 0x61, 0x00, 0x00 };
	const ut8 nul[] = "";
	const ut8 nul16_le[] = { 0x0, 0x0 };
	const ut8 nul16_be[] = { 0x0, 0x0 };

	ut8 *out = rz_str_utf16_to_utf8(a16_be, sizeof(a16_be), true);
	mu_assert_memeq(out, a, sizeof(a), "string mismatch");
	free(out);
	out = rz_str_utf16_to_utf8(a16_le, sizeof(a16_le), false);
	mu_assert_memeq(out, a, sizeof(a), "string mismatch");
	free(out);

	out = rz_str_utf16_to_utf8(pine16_be, sizeof(pine16_be), true);
	mu_assert_memeq(out, pine, sizeof(pine), "string mismatch");
	free(out);
	out = rz_str_utf16_to_utf8(pine16_le, sizeof(pine16_le), false);
	mu_assert_memeq(out, pine, sizeof(pine), "string mismatch");
	free(out);

	out = rz_str_utf16_to_utf8(apine16_be, sizeof(apine16_be), true);
	mu_assert_memeq(out, apine, sizeof(apine), "string mismatch");
	free(out);
	out = rz_str_utf16_to_utf8(apine16_le, sizeof(apine16_le), false);
	mu_assert_memeq(out, apine, sizeof(apine), "string mismatch");
	free(out);

	out = rz_str_utf16_to_utf8(nul16_be, sizeof(nul16_be), true);
	mu_assert_memeq(out, nul, sizeof(nul), "string mismatch");
	free(out);
	out = rz_str_utf16_to_utf8(nul16_le, sizeof(nul16_le), false);
	mu_assert_memeq(out, nul, sizeof(nul), "string mismatch");
	free(out);

	mu_end;
}

bool test_rz_str_utf32_to_utf8(void) {
	const ut8 a[] = "a";
	const ut8 a32_le[] = { 0x61, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 a32_be[] = { 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00 };
	const ut8 pine[] = "🍍";
	const ut8 pine32_le[] = { 0x4d, 0xf3, 0x01, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 pine32_be[] = { 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x00, 0x00, 0x00 };
	const ut8 apine[] = "aa🍍🍍🍍aa";
	const ut8 apine32_le[] = { 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x4d, 0xf3, 0x01, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
	const ut8 apine32_be[] = { 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x01, 0xf3, 0x4d, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x61, 0x00, 0x00, 0x00, 0x00 };
	const ut8 nul[] = "";
	const ut8 nul32_le[] = { 0x0, 0x00, 0x00, 0x0 };
	const ut8 nul32_be[] = { 0x0, 0x00, 0x00, 0x0 };

	ut8 *out = rz_str_utf32_to_utf8(a32_be, sizeof(a32_be), true);
	mu_assert_memeq(out, a, sizeof(a), "string mismatch");
	free(out);
	out = rz_str_utf32_to_utf8(a32_le, sizeof(a32_le), false);
	mu_assert_memeq(out, a, sizeof(a), "string mismatch");
	free(out);

	out = rz_str_utf32_to_utf8(pine32_be, sizeof(pine32_be), true);
	mu_assert_memeq(out, pine, sizeof(pine), "string mismatch");
	free(out);
	out = rz_str_utf32_to_utf8(pine32_le, sizeof(pine32_le), false);
	mu_assert_memeq(out, pine, sizeof(pine), "string mismatch");
	free(out);

	out = rz_str_utf32_to_utf8(apine32_be, sizeof(apine32_be), true);
	mu_assert_memeq(out, apine, sizeof(apine), "string mismatch");
	free(out);
	out = rz_str_utf32_to_utf8(apine32_le, sizeof(apine32_le), false);
	mu_assert_memeq(out, apine, sizeof(apine), "string mismatch");
	free(out);

	out = rz_str_utf32_to_utf8(nul32_be, sizeof(nul32_be), true);
	mu_assert_memeq(out, nul, sizeof(nul), "string mismatch");
	free(out);
	out = rz_str_utf32_to_utf8(nul32_le, sizeof(nul32_le), false);
	mu_assert_memeq(out, nul, sizeof(nul), "string mismatch");
	free(out);

	mu_end;
}

bool all_tests() {
	mu_run_test(test_rz_str_newf);
	mu_run_test(test_rz_str_replace_char_once);
	mu_run_test(test_rz_str_ncpy);
	mu_run_test(test_rz_str_ncat);
	mu_run_test(test_rz_str_replace_char);
	mu_run_test(test_rz_str_replace);
	mu_run_test(test_rz_str_bits64);
	mu_run_test(test_rz_str_rwx);
	mu_run_test(test_rz_str_rwx_i);
	mu_run_test(test_rz_str_bool);
	mu_run_test(test_rz_str_trim);
	mu_run_test(test_rz_str_case);
	mu_run_test(test_rz_str_case_nstr);
	mu_run_test(test_rz_str_split);
	mu_run_test(test_rz_str_split_list);
	mu_run_test(test_rz_str_split_lines);
	mu_run_test(test_rz_str_tokenize);
	mu_run_test(test_rz_str_char_count);
	mu_run_test(test_rz_str_word_count);
	mu_run_test(test_rz_str_ichr);
	mu_run_test(test_rz_str_lchr);
	mu_run_test(test_rz_sub_str_lchr);
	mu_run_test(test_rz_sub_str_rchr);
	mu_run_test(test_rz_str_rchr);
	mu_run_test(test_rz_str_ansi_len);
	mu_run_test(test_rz_str_len_utf8_ansi);
	mu_run_test(test_rz_str_utf8_charsize);
	mu_run_test(test_rz_str_utf8_charsize_prev);
	mu_run_test(test_rz_str_sanitize_sdb_key);
	mu_run_test(test_rz_str_escape_sh);
	mu_run_test(test_rz_str_unescape);
	mu_run_test(test_rz_str_constpool);
	mu_run_test(test_rz_str_format_msvc_argv);
	mu_run_test(test_rz_str_str_xy);
	mu_run_test(test_rz_str_wrap);
	mu_run_test(test_rz_str_encoded_json);
	mu_run_test(test_rz_strf);
	mu_run_test(test_rz_str_nlen);
	mu_run_test(test_rz_str_ndup);
	mu_run_test(test_rz_str_filter);
	mu_run_test(test_rz_str_strchr);
	mu_run_test(test_rz_str_isXutf8);
	mu_run_test(test_rz_str_utf8_conversions);
	mu_run_test(test_rz_str_utf8_count_ucp);
	mu_run_test(test_rz_str_utf8_to_utf16);
	mu_run_test(test_rz_str_utf8_to_utf32);
	mu_run_test(test_rz_str_utf16_to_utf8);
	mu_run_test(test_rz_str_utf32_to_utf8);
	return tests_passed != tests_run;
}

mu_main(all_tests)
